Characterization of soluble and bound EPS obtained from 2 submerged membrane bioreactors by 3D-EEM and HPSEC

This research study deals with the quantification and characterization of the EPS obtained from two 25 L bench scale membrane bioreactors (MBRs) with micro-(MF-MBR) and ultrafiltration (UF-MBR) submerged membranes. Both reactors were fed with synthetic water and operated for 168 days without sludge extraction, increasing their mixed liquor suspended solid (MLSS) concentration during the experimentation time. The characterization of soluble EPS (EPSs) was achieved by the centrifugation of mixed liquor and bound EPS (EPSb) by extraction using a cationic resin exchange (CER). EPS characterization was carried out by applying the 3-dimensional excitation–emission matrix fluorescence spectroscopy (3D-EEM) and high-performance size exclusion chromatography (HPSEC) with the aim of obtaining structural and functional information thereof. With regard to the 3D-EEM analysis, fluorescence spectra of EPSb and EPSs showed 2 peaks in both MBRs at all the MLSS concentrations studied. The peaks obtained for EPSb were associated to soluble microbial by-product-like (predominantly protein-derived compounds) and to aromatic protein. For EPSs, the peaks were associated with humic and fulvic acids. In both MBRs, the fluorescence intensity (FI) of the peaks increased as MLSS and protein concentrations increased. The FI of the EPSs peaks was much lower than for EPSb. It was verified that the evolution of the FI clearly depends on the concentration of protein and humic acids for EPSb and EPSs, respectively. Chromatographic analysis showed that the intensity of the EPSb peak increased while the concentrations of MLSS did. Additionally, the mean MW calculated was always higher the higher the MLSS concentrations in the reactors. MW was higher for the MF-MBR than for the UF-MBR for the same MLSS concentrations demonstrating that the filtration carried out with a UF membrane lead to retentions of lower MW particles.

La conjetura de Poincaré

Con la ayuda de los grupos de homología – que él mismo había definido – Poincaré dio una clasificación completa de las superficies topológicas, y posteriormente intentó clasificar, con ayuda de estos grupos y también del grupo fundamental, las variedades topológicas de cualquier dimensión. Una de las preguntas que se planteó fue si toda variedad topológica 3-dimensional simplemente conexa era homeomorfa a la esfera S3. Esta pregunta – conocida como la conjetura de Poincaré – ha sido objeto de estudio durante casi 100 años, y ha impulsado de modo notable el desarrollo de la Topología Algebraica. La conjetura se extendió a dimensiones arbitrarias y se fue resolviendo en todas las dimensiones salvo en la dimensión 3 que era aquella en la que había sido originariamente planteada. Por fin en el año 2003, Perelman resolvió la famosa conjetura. Los objetivos de este trabajo son los siguientes: hacer un estudio histórico de la Conjetura de Poincaré y de la clasificación de las variedades topológicas, definir con precisión los conceptos que se usan en la clasificación de las variedades topológicas, presentar una selección de los principales resultados, y por último, construir ejemplos de variedades topológicas que justifiquen el desarrollo de esta teoría.